DD227542A1 - METHOD FOR PRODUCING A LIQUID CRYSTAL COMPONENT WITH A DRILLED STRUCTURE - Google Patents

Abstract

The invention relates to a method for the production of liquid crystal components for use in the field of electronics and in systems for information presentation. It is the object of the invention to produce liquid-crystal components with a twisted structure, which are characterized by good reproducibility and homogeneity over the entire surface. According to the invention, the object is achieved by applying to a liquid crystal layer, which is arranged between two glass plates and having a positive dielectric anisotropy and an initial spread-type deformation, an electric field oriented approximately parallel to the plates, the thickness of which is greater than that for the Freedericksz Transition necessary value is.

Description

A method of producing a liquid crystal device having a twisted structure

Field of application of the invention

The invention relates to the production of twisted-structure liquid crystal devices as required in electronics and in information presentation systems.

Characteristic of the known technical solutions

It is known, as described by G. Porte in J. Physique 37 (1976) 1245, ^ 8 (1977) 509 and ^ l (1978) 213, to produce twisted-structure liquid crystal devices. Thereafter, between two glass plates is a liquid crystal layer which is deformed under the influence of the plate surfaces so that the plane of their deformation is approximately perpendicular to the glass plates and the inclination of the liquid crystal molecules near one plate is inverse to that at the other. In order to bring about a twist in a 180-structure of the liquid crystal layer, the slope of those molecules which are in the vicinity of the glass plates must exceed a certain critical size measured with respect to the normal to the plate. This is achieved by the simultaneous influence of a layer of a surface-active substance applied to the inner sides of the plates and the liquid-crystal flow resulting from the filling on the orientation of the liquid-crystal molecules.

The disadvantage is that no reproducibility guaranteed

can and can. the liquid-crystal components with twisted structure produced in this way have pronounced inhomogeneities over the entire surface,

Goal 'of the invention

The aim of the invention are liquid crystal devices with twisted structure with better performance characteristics.

Explanation of the essence of the invention

The object of the invention is to provide a method for the production of liquid crystal components with twisted structure, which are characterized by good reproducibility and homogeneity over the entire surface.

This object is achieved by arranging in a known manner between two glass plates a liquid crystal layer which is deformed under the influence of the plate surfaces so that the plane of their deformation is approximately to the glass plates and the inclination of the liquid crystal molecules near the one plate inversely to that at the other is.

According to the present invention, an electric field approximately parallel to the glass plates is applied to the liquid crystal layer having negative dielectric anisotropy (δ ≤ <0) and an initial spread-type deformation whose thickness E exceeds the value S, - necessary for a Freedericksz transition , In this way it is possible to obtain well reproducible and over the entire surface homogeneous liquid crystal devices with twisted structure.

embodiment

The invention will be explained with reference to an embodiment. As shown in FIGS. 1 and 2a, between two glass plates 1 and 2, a liquid crystal layer 3 having negative dielectric anisotropy (Δ £ <0) is disposed. Under the

Influence of the plate surfaces, this layer is deformed, with their deformation plane is approximately perpendicular to the glass plates 1 and 2. The inclination of the liquid crystal molecules near one plate is inverse to that at the other and their orientation in the layer center is approximately parallel to the glass plates (spread-type deformation). By means of the electrodes 4j, which are arranged in suitable manner on the insides of the plates, an electric field directed parallel to the glass plates is applied to the liquid crystal layer. If its field strength E is greater than that of E., this spread type deformation becomes the bending type (Fig. 2b), in which the orientation of the molecules near the glass plates is maintained, but becomes nearly perpendicular to the plates in the middle of the layer , At a field strength of E <Ξ ,, or when the field disappears (S = 0), the deformation-type deformation relaxes to a twist into a 180 ° -structure of the liquid crystal layer (Fig. 2c).

Claims (1)

- ·; Q ϊ; : V -k- invention claim A method of fabricating a liquid crystal device having a twisted structure in which there is a liquid crystal layer between two glass plates deformed under the influence of the plate surfaces such that the plane of deformation is approximately perpendicular to the glass plates and reversing the liquid crystal molecules near the one plate to that at the other, characterized by applying to the liquid crystal layer of negative dielectric anisotropy and an initial spread-type deformation an electric field approximately parallel to the plates, the magnitude of which is above a value necessary for the Freedericksz transition. For this 1 sheet drawings.